Unmanned aerial vehicles (UAVs) or drones are valuable scientific instruments in Antarctica but are not toys for tourists. That’s the ruling from the latest meeting of the International Association of Antarctica Tour Operators (IAATO). For the upcoming 2015-2016 season, the IAATO members have agreed not to allow the recreational use of drones in the coastal areas of Antarctica. …
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The number of tourists to Antarctica for the 2015/2016 season is expected to be the second largest in history with 40,029 visitors. The International Association of Antarctic Tour Operators (IAATO) reports only the 2007/2008 season had higher numbers with 46,265 people. …
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In this podcast, we speak to Michael Smith about Tom Crean and his heroic exploits in Antarctica during three of the great polar expeditions, under the leadership of Scott and Shackleton. …
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Icebergs are created when large chunks of freshwater ice break off Antarctic ice shelves or glaciers and calve into the Southern Ocean. To be classified as an iceberg, the ice extruding from the water must be at least five metres above sea level, be between 30-50 metres thick, and must cover an area of at least 500 square meters. Icebergs can have a direct effect on the sea bed, scouring the seafloor where it makes contact.
But who monitors icebergs? And how big can they get? …
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Peter Beggs of Antarctica New Zealand talks about his countries long-standing commitment to science research on the ice, and the permanent station on Ross Island, Scott Base, established in 1957. …
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This conference brought together international experts and NZ’s leading policy makers, scientists and industry representatives, to showcase adaptation strategies for managing sea level rise in NZ. …
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Searching for the oldest ice on Earth in Antarctica

A team of Antarctic Indiana Jonses are searching for the oldest ice on earth – in one of the most hostile environments on the planet. The European scientists, part of a research consortium from 10 European countries including Britain, Germany, France, Italy and Norway, will head to East Antarctica to search for a suitable site to drill an ice core to capture ice samples dating back 1.5 million years.

The project, Beyond EPICA – Oldest Ice, will answer important questions about big shifts in the past record of Earth’s climate. And how will they do it? Air bubbles. By extracting and analysing the air in tiny bubbles trapped in the ancient ice, researchers are hoping to figure out how the atmosphere’s composition has changed over time.

Ancient ice to unlock climate record going back 1.5 million years

Dr Robert Mulvaney, an ice core scientist from British Antarctic Survey, who is involved in the site survey, explains that a previous study in the early 2000s gave researchers a climate record going back as far as 800,000 years. The Beyond EPICA project seeks to double that.

“We want to double the length of that record to investigate an important shift in Earth’s climate around one million years ago, when the planet’s climate cycle between cold glacial conditions and warmer interludes changed from being dominated by a 41,000-year pattern to a 100,000 year cycle,” says Mulvaney.

Understanding what controlled this shift in the Earth’s glacial cycles, and whether increasing carbon dioxide levels played a part, along with factors such as changes in the Earth’s rotational tilt, will help scientists to understand better how ice sheets will behave as the world warms.

“We need to understand the interaction between the Earth’s atmosphere and climate in very different conditions in the past if we are to be sure we can predict the future climate response to increasing greenhouse gases. There is no other place on Earth that retains such a long a record of the past atmosphere other than the Antarctic ice sheet, and it is tremendously exciting to be embarking now on the journey to recover this record.”

Once a suitable drilling site is found, scientists will embark on a second phase multi-year project to extract an ice core at a depth of nearly three kilometres, using traditional ice core drilling technology. Laboratories across Europe will then analyse the ice to determine how the climate and the atmosphere have interacted over the past 1.5 million years.